The root extract gave the highest in vitro antimalarial activity against a mulitidrug resistant strain, Plasmodium falciparum VI/S (IC50=39.24 mg/ml). The stem and leaf extracts had insignificant antiplasmodial activity. The leaf, stem and root extracts had bacterial or fungal growth even at very high concentrations of 10 mg/ml. The LD50 values of the stem and leaf methanol extracts against the brine shrimp larvae was 365.60 and 66.5 mg/ml respectively.
The in vitro anti malarial activity of the root extract in part supports the ethnobotanical use of the plant to manage malaria.
KEY WORDS
Clematis, Ranunculaceae, antimalarial, brine shrimp, antimicrobial

The root extract gave the highest in vitro antimalarial activity against a mulitidrug resistant strain, Plasmodium falciparum VI/S (IC50=39.24 mg/ml). The stem and leaf extracts had insignificant antiplasmodial activity. The leaf, stem and root extracts had bacterial or fungal growth even at very high concentrations of 10 mg/ml. The LD50 values of the stem and leaf methanol extracts against the brine shrimp larvae was 365.60 and 66.5 mg/ml respectively.
The in vitro anti malarial activity of the root extract in part supports the ethnobotanical use of the plant to manage malaria.
KEY WORDS
Clematis, Ranunculaceae, antimalarial, brine shrimp, antimicrobial

The root extract gave the highest in vitro antimalarial activity against a mulitidrug resistant strain, Plasmodium falciparum VI/S (IC50=39.24 mg/ml). The stem and leaf extracts had insignificant antiplasmodial activity. The leaf, stem and root extracts had bacterial or fungal growth even at very high concentrations of 10 mg/ml. The LD50 values of the stem and leaf methanol extracts against the brine shrimp larvae was 365.60 and 66.5 mg/ml respectively.
The in vitro anti malarial activity of the root extract in part supports the ethnobotanical use of the plant to manage malaria.
KEY WORDS
Clematis, Ranunculaceae, antimalarial, brine shrimp, antimicrobial

The root extract gave the highest in vitro antimalarial activity against a mulitidrug resistant strain, Plasmodium falciparum VI/S (IC50=39.24 mg/ml). The stem and leaf extracts had insignificant antiplasmodial activity. The leaf, stem and root extracts had bacterial or fungal growth even at very high concentrations of 10 mg/ml. The LD50 values of the stem and leaf methanol extracts against the brine shrimp larvae was 365.60 and 66.5 mg/ml respectively.
The in vitro anti malarial activity of the root extract in part supports the ethnobotanical use of the plant to manage malaria.
KEY WORDS
Clematis, Ranunculaceae, antimalarial, brine shrimp, antimicrobial

The root extract gave the highest in vitro antimalarial activity against a mulitidrug resistant strain, Plasmodium falciparum VI/S (IC50=39.24 mg/ml). The stem and leaf extracts had insignificant antiplasmodial activity. The leaf, stem and root extracts had bacterial or fungal growth even at very high concentrations of 10 mg/ml. The LD50 values of the stem and leaf methanol extracts against the brine shrimp larvae was 365.60 and 66.5 mg/ml respectively.
The in vitro anti malarial activity of the root extract in part supports the ethnobotanical use of the plant to manage malaria.
KEY WORDS
Clematis, Ranunculaceae, antimalarial, brine shrimp, antimicrobial